Home /Research /Qualitative models of 3-D frame-transformation motions
MANIPULATION

Qualitative models of 3-D frame-transformation motions

Amitabha Mukerjee, Nitesh Mittal

Year
2002
Citations
3

Abstract

Qualitative spatial reasoning has been used for representing landmarks, path and grasp planning, shape recognition etc, but has generally not been extended beyond 2-D. In this paper, we develop a 3-D spatial reasoning algebra, using qualitative versions of (a) Gibbs-Heaviside vector calculus with homogeneous coordinates, and (b) screw calculus motions that map one object frame onto another. By comparing the results of composition in one, two and three dimensions, we find that the degree of uncertainty is much higher in 3-D. We demonstrate the utility of a qualitative formulation in a simple robot spatial task with imprecise instructions.

Keywords

Spatial intelligenceQualitative reasoningHeaviside step functionFrame (networking)Computer scienceObject (grammar)Artificial intelligenceCommonsense reasoningGRASPTask (project management)

Related papers

Browse all MANIPULATION papers